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Rahmannejad, R., Kargar, A., Maazallahi, V., Ghotbi-Ravandi, E.. (1394). Analytical analysis of ultimate ground pressure on tunnel support system. , 6(2), 151-157. doi: 10.22044/jme.2015.452
R. Rahmannejad; A. Kargar; V. Maazallahi; E. Ghotbi-Ravandi. "Analytical analysis of ultimate ground pressure on tunnel support system". , 6, 2, 1394, 151-157. doi: 10.22044/jme.2015.452
Rahmannejad, R., Kargar, A., Maazallahi, V., Ghotbi-Ravandi, E.. (1394). 'Analytical analysis of ultimate ground pressure on tunnel support system', , 6(2), pp. 151-157. doi: 10.22044/jme.2015.452
Rahmannejad, R., Kargar, A., Maazallahi, V., Ghotbi-Ravandi, E.. Analytical analysis of ultimate ground pressure on tunnel support system. , 1394; 6(2): 151-157. doi: 10.22044/jme.2015.452

Analytical analysis of ultimate ground pressure on tunnel support system

Journal of Mining and Environment
مقاله 3، دوره 6، شماره 2، مهر 2015، صفحه 151-157    اصل مقاله (618.26 K)
نوع مقاله: Case Study
شناسه دیجیتال (DOI): 10.22044/jme.2015.452
نویسندگان
R. Rahmannejad* 1؛ A. Kargar1؛ V. Maazallahi2؛ E. Ghotbi-Ravandi3
1Mining Engineering Department, Shahid Bahonar University of Kerman, Kerman, Iran
2School of Mining Engineering, College of Engineering, University of Tehran, Tehran, Iran
3Mineral Industries Research Center, Shahid Bahonar University of Kerman, Kerman, Iran
چکیده
The ground reaction curve (GRC) is a vital component of the convergence-confinement method, which possesses many applications in the underground space designs. It defines a relation between the tunnel wall deformations and the ground pressure acting on the tunnel walls. Generally, GRC includes descending and ascending branches. According to many researchers, the descending branch trend for the ground pressure stops after the critical deformation, and thus the ground pressure on the support system increases due to the formation of a loosening zone and an ascending branch, and finally, the creation of an ultimate pressure on the support system. In this work, two relations are proposed to determine the ultimate ground pressure acting on a circular tunnel in a continuous medium. It is assumed that the rock mass obeys the elastic perfectly plastic model with a cohesionless behavior in the broken zone. This is accomplished by incorporating the Duncan-Fama solution and the two models of Yanssen-Kötter and Caquot rigid plastic. The ground pressure obtained by the Caquot model shows a better correlation with the Goel-Jethwa equation compared with the Yanssen-Kötter solution.
کلیدواژه‌ها
ground reaction curve (GRC)؛ Ground Pressure؛ Rigid Plastic Model؛ Convergence-Confinement Method (CCM)؛ Critical Strain
آمار
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